test_pipelines_fill_mask.py

# Copyright 2020 The HuggingFace Team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import unittest

from transformers import MODEL_FOR_MASKED_LM_MAPPING, TF_MODEL_FOR_MASKED_LM_MAPPING, FillMaskPipeline, pipeline
from transformers.pipelines import PipelineException
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow

from .test_pipelines_common import ANY, PipelineTestCaseMeta


@is_pipeline_test
class FillMaskPipelineTests(unittest.TestCase, metaclass=PipelineTestCaseMeta):
    model_mapping = MODEL_FOR_MASKED_LM_MAPPING
    tf_model_mapping = TF_MODEL_FOR_MASKED_LM_MAPPING

    @require_tf
    def test_small_model_tf(self):
        unmasker = pipeline(task="fill-mask", model="sshleifer/tiny-distilroberta-base", top_k=2, framework="tf")
        outputs = unmasker("My name is <mask>")
        self.assertEqual(
            nested_simplify(outputs, decimals=6),
            [
                {"sequence": "My name is grouped", "score": 2.1e-05, "token": 38015, "token_str": " grouped"},
                {"sequence": "My name is accuser", "score": 2.1e-05, "token": 25506, "token_str": " accuser"},
            ],
        )

        outputs = unmasker("The largest city in France is <mask>")
        self.assertEqual(
            nested_simplify(outputs, decimals=6),
            [
                {
                    "sequence": "The largest city in France is grouped",
                    "score": 2.1e-05,
                    "token": 38015,
                    "token_str": " grouped",
                },
                {
                    "sequence": "The largest city in France is accuser",
                    "score": 2.1e-05,
                    "token": 25506,
                    "token_str": " accuser",
                },
            ],
        )

        outputs = unmasker("My name is <mask>", targets=[" Patrick", " Clara", " Teven"], top_k=3)
        self.assertEqual(
            nested_simplify(outputs, decimals=6),
            [
                {"sequence": "My name is Clara", "score": 2e-05, "token": 13606, "token_str": " Clara"},
                {"sequence": "My name is Patrick", "score": 2e-05, "token": 3499, "token_str": " Patrick"},
                {"sequence": "My name is Te", "score": 1.9e-05, "token": 2941, "token_str": " Te"},
            ],
        )

    @require_torch
    def test_small_model_pt(self):
        unmasker = pipeline(task="fill-mask", model="sshleifer/tiny-distilroberta-base", top_k=2, framework="pt")

        outputs = unmasker("My name is <mask>")
        self.assertEqual(
            nested_simplify(outputs, decimals=6),
            [
                {"sequence": "My name is Maul", "score": 2.2e-05, "token": 35676, "token_str": " Maul"},
                {"sequence": "My name isELS", "score": 2.2e-05, "token": 16416, "token_str": "ELS"},
            ],
        )

        outputs = unmasker("The largest city in France is <mask>")
        self.assertEqual(
            nested_simplify(outputs, decimals=6),
            [
                {
                    "sequence": "The largest city in France is Maul",
                    "score": 2.2e-05,
                    "token": 35676,
                    "token_str": " Maul",
                },
                {"sequence": "The largest city in France isELS", "score": 2.2e-05, "token": 16416, "token_str": "ELS"},
            ],
        )

        outputs = unmasker("My name is <mask>", targets=[" Patrick", " Clara", " Teven"], top_k=3)
        self.assertEqual(
            nested_simplify(outputs, decimals=6),
            [
                {"sequence": "My name is Patrick", "score": 2.1e-05, "token": 3499, "token_str": " Patrick"},
                {"sequence": "My name is Te", "score": 2e-05, "token": 2941, "token_str": " Te"},
                {"sequence": "My name is Clara", "score": 2e-05, "token": 13606, "token_str": " Clara"},
            ],
        )

    @slow
    @require_torch
    def test_large_model_pt(self):
        unmasker = pipeline(task="fill-mask", model="distilroberta-base", top_k=2, framework="pt")
        self.run_large_test(unmasker)

    @slow
    @require_tf
    def test_large_model_tf(self):
        unmasker = pipeline(task="fill-mask", model="distilroberta-base", top_k=2, framework="tf")
        self.run_large_test(unmasker)

    def run_large_test(self, unmasker):
        outputs = unmasker("My name is <mask>")
        self.assertEqual(
            nested_simplify(outputs),
            [
                {"sequence": "My name is John", "score": 0.008, "token": 610, "token_str": " John"},
                {"sequence": "My name is Chris", "score": 0.007, "token": 1573, "token_str": " Chris"},
            ],
        )
        outputs = unmasker("The largest city in France is <mask>")
        self.assertEqual(
            nested_simplify(outputs),
            [
                {
                    "sequence": "The largest city in France is Paris",
                    "score": 0.251,
                    "token": 2201,
                    "token_str": " Paris",
                },
                {
                    "sequence": "The largest city in France is Lyon",
                    "score": 0.214,
                    "token": 12790,
                    "token_str": " Lyon",
                },
            ],
        )

        outputs = unmasker("My name is <mask>", targets=[" Patrick", " Clara", " Teven"], top_k=3)
        self.assertEqual(
            nested_simplify(outputs),
            [
                {"sequence": "My name is Patrick", "score": 0.005, "token": 3499, "token_str": " Patrick"},
                {"sequence": "My name is Clara", "score": 0.000, "token": 13606, "token_str": " Clara"},
                {"sequence": "My name is Te", "score": 0.000, "token": 2941, "token_str": " Te"},
            ],
        )

    @require_torch
    def test_model_no_pad_pt(self):
        unmasker = pipeline(task="fill-mask", model="sshleifer/tiny-distilroberta-base", framework="pt")
        unmasker.tokenizer.pad_token_id = None
        unmasker.tokenizer.pad_token = None
        self.run_pipeline_test(unmasker.model, unmasker.tokenizer, None)

    @require_tf
    def test_model_no_pad_tf(self):
        unmasker = pipeline(task="fill-mask", model="sshleifer/tiny-distilroberta-base", framework="tf")
        unmasker.tokenizer.pad_token_id = None
        unmasker.tokenizer.pad_token = None
        self.run_pipeline_test(unmasker.model, unmasker.tokenizer, None)

    def run_pipeline_test(self, model, tokenizer, feature_extractor):
        if tokenizer.mask_token_id is None:
            self.skipTest("The provided tokenizer has no mask token, (probably reformer)")

        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer)

        outputs = fill_masker(f"This is a {tokenizer.mask_token}")
        self.assertEqual(
            outputs,
            [
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
            ],
        )

        outputs = fill_masker([f"This is a {tokenizer.mask_token}", f"Another {tokenizer.mask_token}"])
        self.assertEqual(
            outputs,
            [
                [
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                ],
                [
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                    {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                ],
            ],
        )

        with self.assertRaises(ValueError):
            fill_masker([None])
        # Multiple masks
        with self.assertRaises(PipelineException):
            fill_masker(f"This is {tokenizer.mask_token} {tokenizer.mask_token}")
        # No mask_token is not supported
        with self.assertRaises(PipelineException):
            fill_masker("This is")

        self.run_test_top_k(model, tokenizer)
        self.run_test_targets(model, tokenizer)
        self.run_test_top_k_targets(model, tokenizer)
        self.fill_mask_with_duplicate_targets_and_top_k(model, tokenizer)

    def run_test_targets(self, model, tokenizer):
        vocab = tokenizer.get_vocab()
        targets = list(sorted(vocab.keys()))[:2]
        # Pipeline argument
        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer, targets=targets)
        outputs = fill_masker(f"This is a {tokenizer.mask_token}")
        self.assertEqual(
            outputs,
            [
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
            ],
        )
        target_ids = {vocab[el] for el in targets}
        self.assertEqual(set(el["token"] for el in outputs), target_ids)
        self.assertEqual(set(el["token_str"] for el in outputs), set(targets))

        # Call argument
        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer)
        outputs = fill_masker(f"This is a {tokenizer.mask_token}", targets=targets)
        self.assertEqual(
            outputs,
            [
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
            ],
        )
        target_ids = {vocab[el] for el in targets}
        self.assertEqual(set(el["token"] for el in outputs), target_ids)
        self.assertEqual(set(el["token_str"] for el in outputs), set(targets))

        # Score equivalence
        outputs = fill_masker(f"This is a {tokenizer.mask_token}", targets=targets)
        tokens = [top_mask["token_str"] for top_mask in outputs]
        scores = [top_mask["score"] for top_mask in outputs]

        unmasked_targets = fill_masker(f"This is a {tokenizer.mask_token}", targets=tokens)
        target_scores = [top_mask["score"] for top_mask in unmasked_targets]
        self.assertEqual(nested_simplify(scores), nested_simplify(target_scores))

        # Raises with invalid
        with self.assertRaises(ValueError):
            outputs = fill_masker(f"This is a {tokenizer.mask_token}", targets=[""])
        with self.assertRaises(ValueError):
            outputs = fill_masker(f"This is a {tokenizer.mask_token}", targets=[])
        with self.assertRaises(ValueError):
            outputs = fill_masker(f"This is a {tokenizer.mask_token}", targets="")

    def run_test_top_k(self, model, tokenizer):
        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer, top_k=2)
        outputs = fill_masker(f"This is a {tokenizer.mask_token}")
        self.assertEqual(
            outputs,
            [
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
            ],
        )

        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer)
        outputs2 = fill_masker(f"This is a {tokenizer.mask_token}", top_k=2)
        self.assertEqual(
            outputs2,
            [
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
                {"sequence": ANY(str), "score": ANY(float), "token": ANY(int), "token_str": ANY(str)},
            ],
        )
        self.assertEqual(nested_simplify(outputs), nested_simplify(outputs2))

    def run_test_top_k_targets(self, model, tokenizer):
        vocab = tokenizer.get_vocab()
        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer)

        # top_k=2, ntargets=3
        targets = list(sorted(vocab.keys()))[:3]
        outputs = fill_masker(f"This is a {tokenizer.mask_token}", top_k=2, targets=targets)

        # If we use the most probably targets, and filter differently, we should still
        # have the same results
        targets2 = [el["token_str"] for el in sorted(outputs, key=lambda x: x["score"], reverse=True)]
        outputs2 = fill_masker(f"This is a {tokenizer.mask_token}", top_k=3, targets=targets2)

        # They should yield exactly the same result
        self.assertEqual(nested_simplify(outputs), nested_simplify(outputs2))

    def fill_mask_with_duplicate_targets_and_top_k(self, model, tokenizer):
        fill_masker = FillMaskPipeline(model=model, tokenizer=tokenizer)
        vocab = tokenizer.get_vocab()
        # String duplicates + id duplicates
        targets = list(sorted(vocab.keys()))[:3]
        targets = [targets[0], targets[1], targets[0], targets[2], targets[1]]
        outputs = fill_masker(f"My name is {tokenizer.mask_token}", targets=targets, top_k=10)

        # The target list contains duplicates, so we can't output more
        # than them
        self.assertEqual(len(outputs), 3)